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# Archive - Month: June 2020

## Consider the network in Fig. P12.44. If R = I kO. L = 20 mH, C = 50 µF, and R, = 0, determine the…

Consider the network in Fig. P12.44. If R = I kΩ. L = 20 mH, C = 50 µF, and R, = 0, determine the resonant frequency Wo the Q of the network, and the bandwidth of the network. What impact does an R\$...

## The source in the network in Fig. P12.43 is i,(I) = cos1000, + cos 1500, A. R = 200 n and C = 500…

The source in the network in Fig. P12.43 is i,(I) = cos1000, + cos 1500, A. R = 200 n and C = 500 µF. If Wo = 1000 rad/s. find L. Q. and the BW. Compute the output voltage vo(t) and discuss the...

## 1. A parallel RLC circuit, which is driven by a variable 0 frequency 2-A current source, has the…

1. A parallel RLC circuit, which is driven by a variable 0 frequency 2-A current source, has the following values: R = I kn. L = 400 mH, and C = 10 µF. Find the bandwidth of the network, the...

## 1. A series resonant circuit has a Q of 120 and a resonant frequency of 10,000 rad/ s. Determine…

1. A series resonant circuit has a Q of 120 and a resonant frequency of 10,000 rad/ s. Determine the half-power frequencies and the bandwidth of the circuit.2. Given the network in Fig. P12.34, find...

## 1. The series RLC circuit in Fig. P12.30 is driven by a variable-frequency source. If the…

1. The series RLC circuit in Fig. P12.30 is driven by a variable-frequency source. If the resonant frequency of the network is selected as Wo = 1600 Tad l S, find the value of C. In addition,...